added A-Dist and JS-Dist
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@@ -2,6 +2,7 @@ import torch
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import torch.nn as nn
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import numpy as np
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import os
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from scipy.spatial.distance import jensenshannon
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from torch.utils.data import DataLoader
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from sklearn.linear_model import LogisticRegression
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from sklearn.metrics import accuracy_score
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@@ -23,6 +24,43 @@ class UnlearningAttack:
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self.criterion = nn.CrossEntropyLoss(reduction='none')
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self.collecting = False
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def calculate_js_dist(self, model1, model2, loader, device, target_class):
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"""Calculates Jensen-Shannon Distance between output probability distributions."""
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model1.eval(); model2.eval()
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probs1, probs2 = [], []
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with torch.no_grad():
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for data, _ in loader:
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data = data.to(device)
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# Handle WF_Module specific gate signal if needed
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if model1.__class__.__name__ == "WF_Module":
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gate = torch.full((data.size(0),), target_class, device=device)
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p1 = torch.softmax(model1(data, target_class_indices=gate), dim=1)
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else:
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p1 = torch.softmax(model1(data), dim=1)
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p2 = torch.softmax(model2(data), dim=1)
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probs1.extend(p1.cpu().numpy()); probs2.extend(p2.cpu().numpy())
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# JS Distance is the square root of JS Divergence
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return np.mean(jensenshannon(np.array(probs1), np.array(probs2), axis=1))
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def calculate_a_dist(self, latent1, latent2):
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"""Calculates formal A-Distance: 2 * (1 - 2 * epsilon)."""
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X = np.vstack([latent1, latent2])
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y = np.concatenate([np.ones(len(latent1)), np.zeros(len(latent2))])
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# Shuffle and split
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idx = np.arange(len(X)); np.random.shuffle(idx)
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X, y = X[idx], y[idx]
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split = int(len(X) * 0.7)
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clf = LogisticRegression(solver='liblinear').fit(X[:split], y[:split])
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epsilon = 1.0 - accuracy_score(y[split:], clf.predict(X[split:]))
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return 2.0 * np.abs(0.5 - epsilon)
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def _hook_fn(self, module, input, output):
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if not self.collecting:
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return
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@@ -190,7 +228,7 @@ class UnlearningAttack:
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if not os.path.exists(current_log_file):
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with open(current_log_file, "w") as f:
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f.write("target_class,parameter_mia_accuracy,latent_distance_tell,lookalike_accuracy\n")
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f.write("target_class, parameter_mia_accuracy, latent_distance_tell, lookalike_accuracy, A-Dist, JS-Dist\n")
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self.register_model_hook(unlearned_instance.model)
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@@ -226,10 +264,22 @@ class UnlearningAttack:
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target_class=target_class
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)
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# 1. Calculate JS-Dist (Logit-space probability comparison)
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js_dist = self.calculate_js_dist(unlearned_instance.model, reference_model_torch, forget_loader, device, target_class)
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# 2. Extract latent features for A-Dist
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# We need features from both Unlearned and Retrained model
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_, unlearned_latent = self._extract_attack_features(unlearned_instance.model, forget_loader, device, target_class)
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_, retrained_latent = self._extract_attack_features(reference_model_torch, forget_loader, device, target_class)
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# 3. Calculate A-Dist (Replacing latent_distance)
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a_dist = self.calculate_a_dist(unlearned_latent, retrained_latent)
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print(f"[{framework_name}] Class {target_class} | Parameter MIA: {parameter_mia_acc:.4f} | Latent Dist: {latent_dist:.4f} | Lookalike: {lookalike_acc:.4f}" )
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with open(current_log_file, "a") as f:
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f.write(f"{target_class},{parameter_mia_acc:.6f},{latent_dist:.6f},{lookalike_acc:.6f}\n")
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f.write(f"{target_class},{parameter_mia_acc:.6f},{latent_dist:.6f},{lookalike_acc:.6f}, {a_dist:.6f}, {js_dist:.6f}\n")
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return {
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"parameter_mia_accuracy": parameter_mia_acc,
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